NetBotz 500

Performance security and environmental system monitoring for network closets to data centers

The NetBotz 500 offers premium security and environmental system monitoring. The NetBotz 500 is capable of video surveillance and monitoring to record human activity enabling users to detect intrusions. It provides temperature, humidity, door contact, dry contact, vibration, smoke, 2 way audio monitoring, spot leak and rope leak monitoring. The NetBotz 500's additonal features include integration with StruxureWare Data Center Expert and user-defined alerts making the NetBotz 500 the perfect unit to protect your IT assets from security and environmental threats. The NetBotz 500 can be used in network closets to data centers, but it is commonly installed in medium and large data centers. NetBotz is an active system monitoring solution designed to protect against physical threats, environmental or human, that can cause disruption or downtime to IT infrastructure. This scalable suite of networked appliances, sensors, access controls and cameras is designed to safeguard environments ranging in size from network closets to data centers. The modular design allows for common sensors among the NetBotz appliances. Optional user-defined alerts can be sent in a variety of formats and are easily integrated into event escalation policies. For management of multiple NetBotz appliances, use StruxureWare Data Center Expert. StruxureWare Data Center Expert surveillance licenses enable a single view of multiple cameras, rapid search and retrieval of video, plus 'tagging' of important video clips.

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Sizing and run time calculators are based on Watt ratings. VA (Volt-Amp) ratings are also a common method for measuring power but provide less accurate results. On APC.COM, VA values are often shown for convienience and may be entered as input data. However, VA values are always translated into Watts. This translation is done using an approximation formula which assumes that low VA loads have a power factor of around 0.6 and high power loads have a power factor of nearly 1.0, which is representative of typical, (but not all) computing equipment. For highest precision, use Watt values where available.

The translator below shows how VA can be converted to Watts using the APC.COM formula: